A rod not toching the flor is inserted between two identical boxes (see figure) There is a very small gap between the rod and and boxes ,A horizontal force F is applied at the upper end of the rod There is frication between boxes and the floor Assume that the od remains almost vertical after the force is applied which of hte following is /are correct?

Two blocks of mass m=1 kg and M=2 kg are in contact on a frictionless table. A horizontal force F(=3N) is applied to m. Find the force of contact between the blocks. Will the force of contact remain same if F is applied to M?

A uniform rod of mass M and length L is hinged at its lower end on a table. The rod can rotate freely in vertical plane and there is no friction at the hinge. A ball of mass M and radius R = (L)/(3) is placed in contact with the vertical rod and a horizontal force F is applied at the upper end of the rod. (a) Find the acceleration of the ball immediately after the force starts acting. (b) Find the horizontal component of hinge force acting on the rod immediately after force F starts acting.

A horizontal force F pulls a 20 kg box at a constant speed along a rough horizotal floor. The coefficient of friction between the box and the floor is 0.25. The work done by force F on the block in displacing it by 2 m is

A horizontal force F pulls a 20 kg box at a constant speed along a horizontal floor. If the coefficient of friction between the box and the floor is 0.25,how much work is done by the force F in moving the box through a distance of 2 m?

A massless rod of length l is hinged at one end and is held horizontal by two identical vertical wires, which are tied at distances a and b form the hinged end. A load P si applied at the free end of the rod. The tension in the first is

A massless rod of length l is hinged at one end and is held horizontal by two identical vertical wires, which are tied at distances a and b form the hinged end. A load P si applied at the free end of the rod. The tension in the secound wire is

A rod of mass m and length L is hinged at its top end. If the rod is in equilibrium making an angle of 30^(@) with the vertical when a horizontal force F is applied as shown in figure, then the value of F is:

In the situration shown in the figure the friction coefficient between M and the horizontal surface is mu . The force F is applied at an angle theta with vertical. The correct statements are

You want to apply a force on a box so that it moves with constant speed across a horizontal floor. The coefficient if kinetic friction between the box and the floor is mu_(k). Of the flur following cases, the force you apply on the box will be smallest when you

A small collar of mass m = 100 g slides over the surface of a horizontal circular rod of radius R = 0.3 m. The coefficient of friction between the rod and the collar is mu = 0.8 . Find the angle made with vertical by the force applied by the rod on the collar when speed of the collar is V = 2 m/s.